Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is well known that exposure to cis-diaminedichloroplatinum (CDDP) results in impairment of spermatogenesis; however, little is known about the signal mechanisms involved in CDDP regulation of Sertoli cell (SC) function. This study was designed to evaluate how CDDP regulates SC signal molecules and mechanisms. Purified rat SC was cultured under serum-free conditions and treated with CDDP (10 ng/ml) at various time points. Western blot analysis was used to determine the activation of extracellular signal-related kinases 1 and 2 (ERK1/2), p38 mitogen-activated protein kinase (MAPK), cJun-N-terminal kinase (JNK), cyclooxygenase (COX)-1 and COX-2, inducible and endothelial nitric oxide synthase (iNOS and eNOS). The levels of transferrin (TF) and prostaglandin (PG)E2, PGF2alpha, PGD2, carbaprostacyclin (cPGI2 analog) in culture medium were quantified by ELISA. Nitrite (NO2(-)) and nitrate (NO3(-)) in culture medium were also quantified by Griess assay. Interleukin (IL)-1beta and IL-6 mRNAs were measured by quantitative real-time PCR (QRT-PCR) analysis. CDDP activated the phosphorylation of ERK1/2 (p-ERK1/2) in the early phase (within 5 min) and the level of transferrin (TF) fell significantly. In addition, CDDP significantly increased the level of COX-2, PGs, and ILs in the late phase (within 24h). When ERK activity inhibitor (PD98059, 10 microM) or COX-2 activity inhibitor (NS-398, 10 microM) was used, CDDP reduction of TF and induction of PG and IL expression were prevented, suggesting that the detrimental effects on spermatogenesis through the impairment of SC induced by CDDP are mediated by the activation of ERK1/2 and COX-2 pathways in SC.
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PMID:Cisplatin regulates Sertoli cell expression of transferrin and interleukins. 1824 79

The protein tyrosine kinase Ack1 has been linked to cancer when over-expressed. Ack1 has also been suggested to function in clathrin-mediated endocytosis and in down-regulation of the epidermal growth factor (EGF) receptor (EGFR). We have studied the intracellular localization of over-expressed Ack1 and found that Ack1 co-localizes with the EGFR upon EGF-induced endocytosis in cells with moderate over-expression of Ack. This co-localization is mainly observed in early endosomes. Furthermore, we found that over-expression of Ack1 retained the EGFR at the limiting membrane of early endosomes, inhibiting sorting to inner vesicles of multivesicular bodies. Down-regulation of Ack1 in HeLa cells resulted in reduced rate of (125)I-EGF internalization, whereas internalization of (125)I-transferrin was not affected. In cells where Ack1 had been knocked down by siRNA, recycling of internalized (125)I-EGF was increased, while degradation of (125)I-EGF was inhibited. Together, these data suggest that Ack1 is involved in an early step of EGFR desensitization.
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PMID:Dysregulation of Ack1 inhibits down-regulation of the EGF receptor. 1826 80

We studied the effect of iron deficiency, i.e., 24-h preincubation in iron-free medium, and the effect of high level of non-transferrin iron, i.e., the preincubation in ferric citrate medium containing 500 microM ferric citrate, on the expression of DMT1, Dcytb, ferroportin, hephaestin, and ceruloplasmin in various functional types of human cells. The expression of these proteins potentially involved in non-transferrin iron transport across cell membranes was tested on mRNA level by quantitative real-time PCR as well as on protein level by western blot analysis in Caco-2 (colorectal carcinoma), K562 (erythroleukemia), and HEP-G2 (hepatocellular carcinoma) cells. We found that changes in non-transferrin iron availability, i.e., iron deficiency and high level of non-transferrin iron, affect the expression of tested proteins in a cell type-specific manner. We also demonstrated that changes in the expression on mRNA level do not often correlate with relevant changes on protein level.
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PMID:Differing expression of genes involved in non-transferrin iron transport across plasma membrane in various cell types under iron deficiency and excess. 1883 May 67

Transferrin receptor (CD71) is involved in the cellular uptake of iron and is expressed on cells with high proliferation. It may be implicated in promoting the growth of endocrine resistant phenotypes within ER+/luminal-like breast cancer. We used a panel of in vitro cell models of acquired resistance to tamoxifen (TAMR), Faslodex (FASR) or severe oestrogen deprivation (MCF-7X) and the ER+ luminal MCF-7 parental line to determine CD71 mRNA expression and to study transferrin (Tf) effects on in vitro tumour growth and its inhibition. Furthermore, CD71 protein expression was assessed in a well-characterized series of patients with invasive breast carcinoma using tissue microarrays. Our results demonstrated a striking elevation of CD71 in all cell models of acquired resistance. Exogenous Tf significantly promoted growth in MCF-7-X and MCF-7 cells but more so in MCF-7-X; this growth was significantly reduced by Faslodex (FAS) or a phosphoinositide-3 kinase inhibitor (LY294002). Increased CD71 expression was associated with poor NPI score, tumour proliferation, basal CKs, p53, EGFR, HER2, steroid receptor negativity and shortened breast cancer specific survival (P < 0.001). On multivariate analysis, CD71 was found to be an independent prognostic factor in the ER+ cohort of patients. In conclusion, therapies of current interest in breast cancer (e.g. FAS, PI3K-inhibitors) appear able to partially impact on transferrin/CD71-promoted growth, but further investigation of this important mitogenic mechanism may assist in designing new therapeutic strategies to target highly proliferative, endocrine resistant breast cancers. CD71 appears to be a candidate marker of a subgroup of ER+/luminal-like breast cancer characterised by poor outcome and resistance to tamoxifen.
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PMID:Transferrin receptor (CD71) is a marker of poor prognosis in breast cancer and can predict response to tamoxifen. 1923 37

Management of Type 1 diabetes is burdensome, both to the individual and society, costing over 100 billion dollars annually. Despite the widespread use of glucose monitoring and new insulin formulations, many individuals still develop devastating secondary complications. Pancreatic islet transplantation can restore near normal glucose control in diabetic patients, without the risk of serious hypoglycemic episodes that are associated with intensive insulin therapy. Providing sufficient islet mass is important for successful islet transplantation. However, donor characteristics, organ procurement and preservation affect the isolation outcome. At University of Illinois at Chicago (UIC) we developed a successful isolation protocol with an improved purification gradient. The program started in January 2004 and more than 300 isolations were performed up to November 2008. The pancreata were sent in cold preservation solutions (UW, University of Wisconsin or HTK, Histidine-Tryptophan Ketoglutarate) to the Cell Isolation Laboratory at UIC for islet isolation. Pancreatic islets were isolated using the UIC method, which is a modified version of the method originally described by Ricordi et al. As described in Part I: Digestion and Collection of Pancreatic Tissue, human pancreas was trimmed, cannulated, perfused, and digested. After collection and at least 30 minutes of incubation in UW solution, the tissue was loaded in the cell separator (COBE 2991, Cobe, Lakewood, CO) for purification. Following purification, islet yield (expressed as islet equivalents, IEQ), tissue volume, and purity was determined according to standard methods. Isolated islets were cultured in CMRL-1066 media (Mediatech, Herndon, VA), supplemented with 1.5% human albumin, 0.1% insulin-transferrin-selenium (ITS), 1 ml of Ciprofloxacin, 5 ml o f 1M HEPES, and 14.5 ml of 7.5% Sodium Bicarbonate in T175 flasks at 37 degrees C overnight culture before islets were transplanted or used for research.
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PMID:Human pancreatic islet isolation: Part II: purification and culture of human islets. 1947 Dec 43

The evaluation of iron status in dialysis patients provides information essential to the planning of adequate recombinant human erythropoietin treatment. The cellular iron status of the patients can be determined from the recently available measurement of reticulocyte hemoglobin equivalent (RET-He). RET-He is measured on the basis of automated fluorescent flow cytometry which in the reticulocyte channel, using a polymethine dye, also measures the mean value of the forward light scatter intensity of mature red blood cells and reticulocytes. These values equate with reticulocyte hemoglobin content. In this study, to clarify the accuracy of RET-He in diagnosing iron deficiency in dialysis patients, we initially compared RET-He with such iron parameters as serum ferritin levels, transferrin saturation and content of reticulocyte hemoglobin (CHr) which has been established as indicators of functional iron deficiency. Secondly, we investigated the changes in RET-He during iron supplementation for iron-deficient patients to determine whether this marker is a prospective and reliable indicator of iron sufficiency. The participants in this study were 217 haemodialysis patients. Iron deficiency was defined as havsing a transferrin saturation (TSAT) < 20% or serum ferritin < 100 ng/ml. Conventional parameters of red blood cells and RET-He were measured by on a XE-2100 automated blood cell counter (Sysmex). CHr was measured on an ADVIA120 autoanalyser (Siemens). RET-He mean value was 32.4 pg and good correlation (r = 0.858) between RET-He and CHr is obtained in dialysis patients. Receiver operating characteristic curve analysis revealed, values of the area was 0.776 and at a cutoff value of 33.0 pg, a sensitivity of 74.3% and a specificity of 64.9%, were achieved. Iron supplements given to the patients with low TSAT or ferritin, RET-He responded within 2 weeks, and this seemed to be a potential advantage of using RET-He in the estimation of iron status. RET-He is a new parameter, equivalent value to CHr, and is easily measurable on the widely spread and popular blood cell counter and is a sensitive and specific marker of iron status in dialysis patients.
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PMID:Usefulness of measuring reticulocyte hemoglobin equivalent in the management of haemodialysis patients with iron deficiency. 1962 2

Angiotensin II (ANG II) is taken up by proximal tubule (PT) cells via AT1 (AT1a) receptor-mediated endocytosis, but the underlying cellular mechanisms remain poorly understood. The present study tested the hypothesis that the microtubule- rather than the clathrin-dependent endocytic pathway regulates AT1-mediated uptake of ANG II and ANG II-induced sodium and hydrogen exchanger-3 (NHE-3) expression in PT cells. The expression of AT1 receptors, clathrin light (LC) and heavy chain (HC) proteins, and type 1 microtubule-associated proteins (MAPs; MAP-1A and MAP-1B) in PT cells were knocked down by their respective small interfering (si) RNAs before AT1-mediated FITC-ANG II uptake and ANG II-induced NHE-3 expression were studied. AT1 siRNAs inhibited AT1 expression and blocked ANG II-induced NHE-3 expression in PT cells, as expected (P < 0.01). Clathrin LC or HC siRNAs knocked down their respective proteins by approximately 90% with a peak response at 24 h, and blocked the clathrin-dependent uptake of Alexa Fluor 594-transferrin (P < 0.01). However, neither LC nor HC siRNAs inhibited AT1-mediated uptake of FITC-ANG II or affected ANG II-induced NHE-3 expression. MAP-1A or MAP-1B siRNAs markedly knocked down MAP-1A or MAP-1B proteins in a time-dependent manner with peak inhibitions at 48 h (>76.8%, P < 0.01). MAP protein knockdown resulted in approximately 52% decreases in AT1-mediated FITC-ANG II uptake and approximately 66% decreases in ANG II-induced NHE-3 expression (P < 0.01). These effects were associated with threefold decreases in ANG II-induced MAP kinases ERK 1/2 activation (P < 0.01), but not with altered AT1 expression or clathrin-dependent transferrin uptake. Both losartan and AT1a receptor deletion in mouse PT cells completely abolished the effects of MAP-1A knockdown on ANG II-induced NHE-3 expression and activation of MAP kinases ERK1/2. Our findings suggest that the alternative microtubule-dependent endocytic pathway, rather than the canonical clathrin-dependent pathway, plays an important role in AT1 (AT1a)-mediated uptake of extracellular ANG II and ANG II-induced NHE-3 expression in PT cells.
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PMID:AT1 receptor-mediated uptake of angiotensin II and NHE-3 expression in proximal tubule cells through a microtubule-dependent endocytic pathway. 1972 42

Clathrin-mediated endocytosis (CME) is the main route of internalization of receptor-ligand complexes. Relatively little is known about the role of specific lipids in CME, in particular that of phosphatidic acid (PA). We examined the effect of altering cellular PA levels on CME by manipulating the activities and/or levels of either phospholipase D (PLD1 and PLD2) or diacylglycerol kinase (DGK), two enzyme classes involved in PA production. DGK inhibition resulted in a dramatic reduction of cellular PA, measured directly using an enzyme-coupled reaction, which resulted in a decreased rate of EGFR internalization measured biochemically. This corresponded to a decreased rate of clathrin-coated pit (CCP) initiation and increased lifetimes of productive CCPs, as determined by quantitative live-cell total internal reflection fluorescence microscopy. Unexpectedly, PLD inhibition caused an increase in cellular PA, suggesting that PLD activity negatively regulates PA synthesis by other more productive pathways. Consistent with opposite effects on cellular PA levels, PLD inhibition had opposite effects on EGFR internalization and CCP dynamics, compared with DGK inhibition. Importantly, the constitutive internalization of transferrin receptors was unaffected by either treatment. These findings demonstrate that PA plays a regulatory rather than obligatory role in CME and differentially regulates ligand-stimulated CME of EGFR.
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PMID:Phosphatidic acid plays a regulatory role in clathrin-mediated endocytosis. 2057 78

IRIDA (iron-refractory iron-deficiency anaemia) is a rare autosomal-recessive disorder hallmarked by hypochromic microcytic anaemia, low transferrin saturation and high levels of the iron-regulated hormone hepcidin. The disease is caused by mutations in the transmembrane serine protease TMPRSS6 (transmembrane protease serine 6) that prevent inactivation of HJV (haemojuvelin), an activator of hepcidin transcription. In the present paper, we describe a patient with IRIDA who carries a novel mutation (Y141C) in the SEA domain of the TMPRSS6 gene. Functional characterization of the TMPRSS6(Y141C) mutant protein in cultured cells showed that it localizes to similar subcellular compartments as wild-type TMPRSS6 and binds HJV, but fails to auto-catalytically activate itself. As a consequence, hepcidin mRNA expression is increased, causing the clinical symptoms observed in this IRIDA patient. The present study provides important mechanistic insight into how TMPRSS6 is activated.
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PMID:A novel TMPRSS6 mutation that prevents protease auto-activation causes IRIDA. 2070 62

The objective was to study the effect of a defined culture system, on nuclear and cytoplasmic maturation of bovine oocytes, using the two-step procedure of IVM to detect possible inhibition and subsequent resumption of meiosis arrest. In the first step, called the prematuration period (PMP), COCs were cultured in T1-non-defined medium (NDM), or T2-defined medium (DM), both for 24 h. In step 2, called the resumption period (RP), COCs were cultured in: NDM (T1); DM + NDM (T3); or DM+DM (T4) for 24 h in each medium. The NDM was composed of TCM-199 supplemented with FCS and FSH. The DM was composed of alpha-MEM supplemented with PVA, insulin, IGF-1, androstenedione, nonessential amino acids, transferrin, and sodium selenium. Oocytes from T2 had a lower (P < 0.05) rate of nuclear maturation (19.8%) than T1 oocytes (83.2%). Also, T2 COCs appeared to be in the process of cytoplasmic maturation, according to the distribution of organelles assessed by transmission electron microscopy (MET). These COCs had characteristics previously described as mature: erect microvilli on the plasmembrane, presence of cortical/evenly distributed mitochondria throughout the ooplasm, and presence of 50% aligned/cluster cortical granules. Immature characteristics such as small PvS, compact cumulus cells, and presence of 50% cortical granule clusters were also observed. The T1 COCs had only characteristics of maturation (P < 0.05). In step 2 (RP), meiosis arrest induced by DM was resumed after an additional 24 h of culture in NDM (T3) with 79.2% mature COCs, whereas in T4, meiosis arrest was maintained, resulting in almost 70% immature COCs (P < 0.05). At the end of RP, T3 COCs had the mature characteristics of mitochondria spread throughout the cytoplasm (P < 0.05), cumulus expansion, and alignment of cortical granules, whereas the T4 group had both immature and mature characteristics. We inferred that DM can be used in lieu of meiosis inhibitors and furthermore, it can provide extra time to study nuclear and cytoplasmic maturation synchrony of IVM.
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PMID:Induction of reversible meiosis arrest of bovine oocytes using a two-step procedure under defined and nondefined conditions. 2122 Jan 66


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